The idea is to create a timer that will return how long it takes to perform a certain function. I sat and coded a matrix class and a `Strass`

function that *should* multiply that I feed into it.

The timer function works correctly in that it returns the time that it takes to execute the `Strass`

function. However, the `Strass`

function doesn't return a matrix that has been multiplied. It is a matrix of all zeroes. It's as if the `Strass`

function isn't assigning anything to Matrix C. Ever.

For example, multiplying a 2x2 matrix gives the following result:

```
0.00 // P1
0.00 0.00 // the matrix after multiplication
0.00 0.00
7102000 // the time it took to do this
```

The `Strass`

function looks like this:

```
public static void Strass(Matrix A, Matrix B, Matrix C) {
// It has been suggested that P1-P7 should be of size
// A.size()/2. Changing this does not fix the problem.
Matrix P1 = new Matrix(A.size());
Matrix P2 = new Matrix(A.size());
Matrix P3 = new Matrix(A.size());
Matrix P4 = new Matrix(A.size());
Matrix P5 = new Matrix(A.size());
Matrix P6 = new Matrix(A.size());
Matrix P7 = new Matrix(A.size());
// if n = 1 then
if (A.size() == 1) {
C = A.times(B);
} else {
if (A.size() != B.size()) throw new RuntimeException("Somehow, the sizes of the matrices aren't equal.");
int sizeOf = A.size();
// The ungodly recursive calls.
Strass(A.partition(1, sizeOf/2, 1, sizeOf/2).plus(A.partition(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf)), B.partition(1, sizeOf/2, 1, sizeOf/2).plus(B.partition(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf)), P1);
Strass(A.partition(sizeOf/2+1, sizeOf, 1, sizeOf/2).plus(A.partition(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf)), B.partition(1, sizeOf/2, 1, sizeOf/2), P2);
Strass(A.partition(1, sizeOf/2, 1, sizeOf/2), B.partition(1, sizeOf/2, sizeOf/2+1, sizeOf).minus(B.partition(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf)), P3);
Strass(A.partition(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf), B.partition(sizeOf/2+1, sizeOf, 1, sizeOf/2).minus(B.partition(1, sizeOf/2, 1, sizeOf/2)), P4);
Strass(A.partition(1, sizeOf/2, 1, sizeOf/2).plus(A.partition(1, sizeOf/2, sizeOf/2+1, sizeOf)), B.partition(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf), P5);
Strass(A.partition(sizeOf/2+1, sizeOf, 1, sizeOf/2).minus(A.partition(1, sizeOf/2, 1, sizeOf/2)), B.partition(1, sizeOf/2, 1, sizeOf/2).plus(B.partition(1, sizeOf/2, sizeOf/2+1, sizeOf)), P6);
Strass(A.partition(1, sizeOf/2, sizeOf/2+1, 1).minus(A.partition(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf)), B.partition(sizeOf/2+1, sizeOf, 1, sizeOf/2).plus(B.partition(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf)), P7);
C.addPart(1, sizeOf/2, 1, sizeOf/2, (P1.plus(P4)).minus(P5.plus(P7)));
C.addPart(sizeOf/2+1, sizeOf, 1, sizeOf/2, (P2.plus(P4)));
C.addPart(1, sizeOf/2, sizeOf/2+1, sizeOf, (P3.plus(P5)));
C.addPart(sizeOf/2+1, sizeOf, sizeOf/2+1, sizeOf, (P1.plus(P3)).minus(P2.plus(P3)));
}
}
```

I've tested the `addPart`

function, and it is working correctly as far as I can tell. The same goes for the plus and minus functions. I did my best to go through and verify that I have all of the right sizes and numbers in all of the right locations, and I'm pretty darn sure that I do. So, somewhere in all of this, there is something amiss.

For reference and brevity, I've pasted all of the relevant code here.

seemto work just fine individually. – Linell Oct 12 '12 at 22:58